PRODUCT DATA SHEET LOW DISTORTION MATCHING TRANSFORMER P3801 Features Leadfree (Pbfree) RoHS compliant Low distortion Environmentally tested to IEC 68 CERT reliability tested 12.6mm (0.5") seated height Industry Standard Pinout Extended Frequency Response IEC 60950 and UL 1950 Certified UL Recognized Component High thermal stability Applications V.90 and V.92 modems V.34 modems DESCRIPTION P3801 is intended for highspeed applications where low distortion at moderate power levels and very low voiceband frequencies is required at the most competitive price. At moderate power levels (e.g. 10dBm) performance to V.90/V.92 may be achieved. P3801 has extended flat frequency response from 30Hz to 4kHz with very low levels of signal distortion at signal frequencies as low as 150Hz. P3801 is electrically and mechanically compatible with P3034 and P2001 for supplementary insulation 250V working applications, and directly replaces 9002VF, 6718236M, MTLM 2001, EMIT2001, and ATS091/B without changes to matching components, but with the added benefit of considerably improved thermal stability. P3801 also offers a dropin performance upgrade path for P3800 and P1200. P3801 uses patented design and construction methods to achieve excellent signal performance and safety isolation to international standards. The part is completely leadfree, compliant with RoHS Directive 2002/95/EC, and suitable for leadfree and conventional processing. P3801 is certified to IEC 60950 and UL 60950. P3801 is a UL Recognized Component and is supported by an IEC CB Test Certificate. P3801 is a rugged lightweight design that has been subjected to relevant environmental testing according to IEC 68 and Combined Environmental Reliability Testing (CERT) beyond normal operational levels and passed all tests, remaining fully functional. Patented ETALDOC 711/8 Page 1 of 5 April 2005
SPECIFICATIONS Electrical At T = 25ºC and as circuit fig. 2 unless otherwise stated. Parameter Conditions Min Typ Max Units Insertion Loss f = 2kHz, R L = 560Ω 1.5 db Frequency response 200Hz 4kHz ±0.2 db Return Loss 200Hz 4kHz 18 db Third Harmonic Distortion (1) 150Hz 10dBm 600Hz 10dBm 90 100 dbm dbm Voltage isolation (2) 50Hz DC 2.12 3.0 kvrms kv Operating range: Functional Storage Ambient temperature 0 40 +70 +85 ºC ºC Lumped equivalent circuit parameters as Fig. 1 DC resistance, R DC (3) Sum of windings 120 148 Ω Leakage inductance L 16 19.5 mh Shunt inductance Lp (4) 10mV 200Hz 6 H Shunt loss Rp (4) 10mV 200Hz 12 kω Notes 1. Third harmonic typically exceeds other harmonics by 20dB. 2. Components are 100% tested at 3.25kV DC. 3. Caution: do not pass DC through windings. Telephone line current, etc. must be diverted using choke or semiconductor line hold circuit. 4. At signal levels greater than 100mV, Lp will increase and Rp will decrease slightly but the effect is usually favourable to the return loss characteristic. Equivalent Circuit Fig. 1 ½ L ½ R ½ R ½ L IDEAL 1:1 Patented ETALDOC 711/8 Page 2 of 5 April 2005
MATCHING RECOMMENDATIONS 600 Ω MATCH Recommended Circuit Fig. 2 EUROPEAN CTR21 COMPLEX MATCH Recommended Circuit Fig. 3 600 6.8 µ F +50% _ 20% * 270 150nF 2.2 µ F (150nF) 100nF 27nF +_ 5% 33nF +_ 5% 560 +_ 2% 750 750 (680) 56nF 150 (220) * If return loss >16dB, 300Hz 4kHz is acceptable, blocking capacitor may be relaxed to 4.7 µ F +50% _ 20% Figure 3 gives flat RX and TX responses against the CTR21 complex reference impedance (typically around ±0.5dB 300Hz 3.4kHz). Return loss is typically better than 20dB. The circuit values in parentheses give optimum flatness at a small sacrifice in return loss. Fig. 4 270 150nF 2.2 µ F For circuits with existing board drillings, figure 4 gives good return loss (>20dB) and RX flatness against the CTR21 complex reference impedance, but TX flatness is degraded by the use of this topology. 750 68nF 330 27nF 820 CONSTRUCTION Dimensions Connections e2 Dimensions shown are in millimetres (inches). Geometric centres of outline and pin grid coincide within a tolerance circle of 0.6mm Windings may be used interchangeably as primary or secondary. ETALDOC 711/8 Page 3 of 5 April 2005
ENVIRONMENTAL TESTING Reliability testing to IEC 68 Tested to clauses of IEC 68 and compliant with all functional and safety requirements following exposure as follows: Test description IEC 68 reference Test details Result Robustness of terminations 68221 Test Ua 1 Tensile 5N pull 68221 Test Ua 2 Thrust 1N push No pin detachment or distortion Solderability 68220 Test Ta Method 1 Solder bath 235ºC 2s Resistance to soldering heat 68220 Test Tb Method 1A 68220 Test Tb Method 2 Solder bath 260ºC 10s Soldering iron 350ºC 5s Vibration 6826 Test Fc Sweep 105510Hz in 1 minute Amplitude 1.5mm pkpk Duration 2h per axis, 3 axes Shock 68227 Test Ea Peak acceleration 1000m/s 2 Duration of pulse 6ms 3 shocks each direction on 3 axes Cold 6821 Test Ab 25ºC 16h Recovery to ambient 12h Dry heat 6822 Test Bb 125ºC 16h Recovery to ambient 12h Damp heat 6823 Test Ca 40ºC 4 days, RH 93% Recovery to ambient 12h Finish smooth, bright and even Change of temperature 68214 Test Na T A 25ºC T B +85ºC t 1 30 min 2 min t 2 3 min Recovery to ambient 12h 5 cycles Combined Environmental Reliability Testing (CERT) Components step stressed at increasing levels of severity using combined stresses to detect potential weaknesses. Results are shown for highest levels of stress tested. Compliant with all functional and safety tests following exposure as follows: Test description Test details Duration Result Storage Test Thermal cycling 30ºC to +100ºC at 11ºC/min 6mm pk 29Hz at 1 octave/min 20m/s 2 9200Hz 20 mins per plane Transportation Test Thermal cycling 65ºC to +80ºC Random vibration 10200Hz and 2002000Hz at 57m/s 2 RMS 2 hours per plane ETALDOC 711/8 Page 4 of 5 April 2005
SAFETY Constructed in accordance with IEC 609501, EN 609501 and UL 609501, supplementary insulation, 250Vrms maximum working voltage, flammability class V0. There are no special installation requirements (beyond attending to usual PCB track separations) since the integral cover provides supplementary insulation from its external faces to internal core and windings. ABSOLUTE MAXIMUM RATINGS (Ratings of components independent of circuit). Short term isolation voltage (1s) DC current Storage temperature Lead temperature, 10s 2.12kVrms 3.0kVDC 100µA 40ºC to +85ºC 260ºC CERTIFICATION Certified under the IEC CB scheme (Certificate DK8570) to IEC 6095012001, subclauses 1.5, 1.5.1, 1.5.2, 1.7.1, 2.9, 2.9.1, 2.9.2, 2.9.3, 2.10, 2.10.1, 2.10.2, 2.10.3, 2.10.3.1, 2.10.3.3, 2.10.4, 2.10.5, 2.10.5.1, 2.10.5.2, 2.10.5.4, 4.7, 4.7.1 (classv1), 4.7.3, 4.7.3.1, 4.7.3.4, 5.2, 5.2.1, 5.2.2, 6.1.2.1 (Finland, Norway, Sweden national deviations) for a maximum working voltage of 250Vrms, nominal mains supply voltage not exceeding 300Vrms and a maximum operating temperature of 70ºC in Pollution Degree 2 environments. Recognized under the Component Recognition Program of Underwriters Laboratories Inc. to US and Canadian requirements CAN/CSA C22.2 No. 60950103/UL609501, First Edition, based on IEC 609501, First Edition, maximum working voltage 250Vrms, Pollution Degree 2, supplementary insulation. UL File number E203175. INTELLECTUAL PROPERTY RIGHTS ETAL, P1200, P2001, P3034, P3800 and P3801 are Trade Marks of Profec Technologies Ltd. The Trade Mark ETAL is registered at the UK Trade Marks Registry. Profec Technologies Ltd. is the owner of the design right under the Copyright Designs and Patents Act 1988 and no rights or licences are hereby granted or implied to any third party. P3189 design and construction are protected by patents and registered design. UK Registered Design No. 2077360. US Patent No. 6,690,254 French Registered Design No. 991512. United States Registered Design 426, 815. Mexico Registered Design 12143. Other patents and registered designs pending. 1998 2005 Profec Technologies Ltd. Reproduction prohibited. Additionally, Profec Technologies certifies all transformers as providing voltage isolation of 2.12kVrms, 3kV DC minimum. All shipments are supported by a certificate of conformity to current applicable safety standards. E203175 T R A N S F O R M I N G T H E F U T U R E Profec Technologies Ltd., 10 Betts Avenue, Martlesham Heath, Ipswich, IP5 3RH, England Telephone: +44 (0) 1473 611422 Fax: +44 (0) 1473 611919 Website: www.profec.com Email: info@profec.co.uk sales@profec.com ISO 9001 FM 25326 ETALDOC 711/8 Page 5 of 5 April 2005